• 제목/요약/키워드: Unified chassis control

검색결과 7건 처리시간 0.028초

차량 횡방향 안정성 향상을 위한 통합섀시 제어 (Unified Chassis Control for Improvement of Vehicle Lateral Stability)

  • 조완기;이경수;윤장열
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2007년도 춘계학술대회A
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    • pp.1126-1131
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    • 2007
  • This paper presents unified chassis control (UCC) to improve the vehicle lateral stability. The unified chassis control implies combined control of active front steering (AFS), electronic stability control (ESC) and continuous damping control (CDC). A direct yaw moment controller based on a 2-D bicycle model is designed by using sliding mode control law. A direct roll moment controller based on a 2-D roll model is designed. The computed direct yaw moment and the direct roll moment are generated by AFS, ESP and CDC control modules respectively. A control authority of the AFS and the ESC is determined by tire slip angle. Computer simulation is conducted to evaluate the proposed integrated chassis controller by using the Matlab, simulink and the validated vehicle simulator. From the simulation results, it is shown that the proposed unified chassis control can provide with improved performance over the modular chassis control.

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차량전복 방지를 위한 통합섀시제어 (Unified Chassis Control to Prevent Vehicle Rollover)

  • 윤장열;이경수;조완기;김동신
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2007년도 춘계학술대회A
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    • pp.1132-1137
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    • 2007
  • This paper describes a Unified Chassis Control (UCC) strategy to prevent vehicle rollover by integrating individual modular chassis control systems such as Electronic Stability Control (ESC) and Continuous Damping Control (CDC). The UCC threshold is determined from a rollover index computed by estimated roll angle, roll rate and measured lateral acceleration. A direct yaw moment control method is used to design the ESC based on a 2-D bicycle model. Similarly, the CDC is designed based on a 2-D roll model using a direct roll moment control method. The performance of the proposed UCC scheme is investigated and compared to that of modular chassis controllers through computer simulations using a validated vehicle simulator. It is shown that the proposed the UCC can lead to improvements in vehicle stability and efficient actuation of chassis control systems.

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타이어 횡력 제한 조건 하에서 ESC와 AFS를 이용한 통합 섀시 제어 (Unified Chassis Control with ESC and AFS under Lateral Tire Force Constraint on AFS)

  • 임성진;남기홍;이호석
    • 제어로봇시스템학회논문지
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    • 제21권7호
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    • pp.595-601
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    • 2015
  • This paper presents an unified chassis control with electronic stability control (ESC) and active front steering (AFS) under lateral force constraint on AFS. When generating the control yaw moment, an optimization problem is formulated in order to determine the tire forces, generated by ESC and AFS. With Karush-Kuhn-Tucker optimality condition, the optimum tire forces can be algebraically calculated. On low friction road, the lateral force in front wheels is easily saturation. When saturated, AFS cannot generate the required control yaw moment. To cope with this problem, new constraint on the lateral tire force is added into the original optimization problem. To check the effectiveness of the propose method, simulation is performed on the vehicle simulation package, CarSim.

통합 샤시제어 시스템 개발을 위한 시뮬레이션 환경 구축 (A Simulation Environment Development for Global Chassis Control System of Vehicles)

  • 황태훈;박기홍;허승진;이민수;이규훈;기승관
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2005년도 춘계학술대회 논문집
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    • pp.1095-1098
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    • 2005
  • Most electronic chassis control systems until today have been designed with optimization on its own performance. However, According to the increase of the interest regarding a vehicle safety and development of information technique, the integration technique of current chassis systems is being emphasized. Each enterprise proposed it with name of GCC(Global Chassis Control) or UCC(Unified Chassis Control). This study realizes control algorithm of suspension and brake by using the vehicle model of low degree of freedom as the primary stage of realization of integrated chassis control system. The proposed algorithm build the simulation environment connected to the CarSim having full vehicle model of 27 degree of freedom for raising the thrust of results

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차량자세제어 최악상황 개발 및 UCC HILS 시스템 기반 성능 평가 (Worst-case Development and Evaluation for Vehicle Dynamics Controller in UCC HILS)

  • 김진용;정도현;정창현;최형진
    • 한국자동차공학회논문집
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    • 제19권6호
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    • pp.30-36
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    • 2011
  • The current test methods are insufficient to evaluate and ensure the safety and reliability of vehicle system for all possible dynamic situation including the worst case such as rollover, spin-out and so on. Although the known NHTSA Sine with dwell steering maneuvers are applied for the vehicle performance assessment, they aren't enough to estimate other possible worst case scenarios. Therefore, it is crucial for us to verify the various worst cases including the existing severe steering maneuvers. This paper includes useful worst case based upon the existing worst case scenarios mentioned above and worst case evaluation for vehicle dynamic controller in simulation basis and UCC HILS. The only human steering angle is selected as a design parameter here and optimized to maximize the index function to be expressed in terms of both yaw rate and side slip angle. The obtained scenarios were enough to generate the worst case to meet NHTSA worst case definition. It has been concluded that the new procedure in this paper is adequate to create other feasible worst case scenarios for a vehicle dynamic control system.

고안전 차량의 통합섀시 제어를 위한 지능형 현가시스템 변위 센서 개발 (Development of a intelligent suspension displacement sensor for unified chassis control of advanced safety vehicle)

  • 윤득선;이창석;백승환;강태호;부광석
    • 센서학회지
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    • 제18권5호
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    • pp.393-401
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    • 2009
  • This paper describes development of a new displacement sensor for intelligent suspension system in which the damping force has been controlled by MR fluid. Most of the current vehicle height sensors have been installed at external place of the damper and connected to that by mechanical linkages so far. The developed sensor has a new mechanism which detects movement of the sensor rod same as connecting rod in the suspension damper by using a GMR Sensor and converts it to the relative displacement from an initial position.

요우모멘트를 통한 주행안정성 향상 제어 알고리즘에 관한 연구 (A Study on Improving Driving Stability System by Yaw Moment Control)

  • 박중현;김순호
    • 한국정보통신학회논문지
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    • 제10권2호
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    • pp.392-397
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    • 2006
  • 본 논문에서는 ESP와 4WS차량의 동적성능에 관한 연구와 차량이 불안정 영역으로의 주행 시 안정영역으로의 거동으로 할 수 있게 하는 차량의 주행안정성 향상에 관한 연구를 수행하였다. 고속으로 주행하는 차량이 조향과 동시에 가${\cdot}$감속을 하는 경우 관련된 변수로는 종방향 및 횡방향의 속도변화, 요우잉 등을 들 수 있으며, 이 변수들은 타이어 특성, 차량의 중량, 제동력, 조향각등에 따른 동역학적 관계식들로 표현 할 수 있다. 본 연구는 위와 같은 제동${\cdot}$조향장치들을 제어하여, 차량의 주행 중 위급상황 시 탁월한 성능을 발휘 할 수 있는 시스템에 관하여 고찰하고, 주행시 안정성향상을 위한 제어시스템 알고리즘개발을 통하여 운전상황을 안전하게 하기 위함이다.